我国生物农药登记品种清单式管理初探

近年来我国生物农药新品种层出不穷,登记热度持续上升,登记管理不断规范。本文探讨了对我国生物农药登记品种采取清单式管理,提出生物农药登记品种清单的范围和建立原则,梳理形成了我国生物农药登记品种清单,提出了完善生物农药登记品种清单式管理的意见建议。     

Botanical pesticides and their human health safety on the example of Citrus sinensis essential oil and Oulema melanopus under laboratory conditions

Biopesticides derived from plants have recently received increasing interest as an alternative to conventional chemicals suitable for integrated pest management and organic farming. In this study, Citrus sinensis (Osbeck) essential oil was tested for its potential for wheat protection against Oulema melanopus (L.). The chemical composition of the essential oil was analyzed by gas chromatography-mass spectrometry (GC-MS). Twenty-four compounds were identified in the oil among which d-limonene was a predominant component, followed by myrcene, α-pinene, linalool, sabinene, decanal, and other minor components. Direct contact toxicity assay showed the effectiveness of the essential oil against O. melanopus larvae causing the mortality of 85% during 48 hours. The persistence study revealed high dissipation rate of the oil from treated plants, whereas concentrations lower than 0.01 g/kg were detected by GC-MS 5 min after the application of the oil, suggesting its environmental and food safety. These results, together with previous literature reports reviewed in this study, indicate the great potential of the C. sinensis essential oil for future use in crop protection against insect pests.     

Nematicidal Potential of the Neem Tree Azadirachta indica (A. Juss)

Plant products are receiving greater attention as prophylactics against several species of plant-parasitic nematodes. Numerous experiments have shown the potential nematicidal value of plant parts and their by-products when incorporated into soil or when the plants themselves are interplanted as seedlings among crop plants. Various products (oils, cakes, extracts, etc.) prepared from the leaves and seeds of the neem plant (Azadirachta indica A. Juss) (Family Meliaceae) have been reported as effective protectants against nematode pests when used as root-dips and seed treatments. Nemato-toxic compounds of the neem plant, especially the azadirachtins, are released through volatilization, exudation, leaching and decomposition. The modes of action of these compounds are complex, and a number of mechanisms in relation to nematode management are yet to be fully explored. This review critically assesses the potential of these products in the management of nematodes in tropical agriculture.     

Genetically engineering better fungal biopesticides

Microbial insect pathogens offer an alternative means of pest control with the potential to wean us off our heavy reliance on chemical pesticides. Insect pathogenic fungi play an important natural role in controlling disease vectors and agricultural pests. Most commercial products employ Ascomycetes in the genera Metarhizium and Beauveria. However, their utilization has been limited by inconsistent field results as a consequence of sensitivity to abiotic stresses and naturally low virulence. Other naturally occurring biocontrol agents also face these hurdles to successful application, but the availability of complete genomes and recombinant DNA technologies have facilitated design of multiple fungal pathogens with enhanced virulence and stress resistance. Many natural and synthetic genes have been inserted into entomopathogen genomes. Some of the biggest gains in virulence have been obtained using genes encoding neurotoxic peptides, peptides that manipulate host physiology and proteases and chitinases that degrade the insect cuticle. Prokaryotes, particularly extremophiles, are useful sources of genes for improving entomopathogen resistance to ultraviolet (UV) radiation. These biological insecticides are environmentally friendly and cost‐effective insect pest control options. © 2017 Society of Chemical Industry     

9种生物制剂对甘薯长喙壳菌的抑制作用及防治效果

为筛选防治甘薯黑斑病的生物农药,测定了9种生物制剂对甘薯长喙壳菌孢子萌发和菌丝生长的抑制作用,并进行了防治效果验证。结果表明,四霉素对分生孢子萌发以及菌丝生长均表现出最强的抑制作用,EC50分别为0.10和0.15 mg/L;丁子香酚次之,EC50分别为0.24和0.93 mg/L。四霉素对薯苗黑斑病具有较好的防治效果,当接种甘薯长喙壳菌分生孢子浓度为5×104孢子/m L时,四霉素有效用量6与9 mg/L处理的防治效果分别为66.67%和78.57%;当接种浓度为5×105孢子/m L时,四霉素有效用量6与9 mg/L处理的防治效果分别为77.44%和90.23%。本研究为生物农药应用于甘薯黑斑病的防治提供了依据。     

Crop Disease Review Maize

Variability in the insecticidal effects of botanical preparations has been one of the major obstacles in the application of this type of insecticide. Understanding of the variability may help to improve formulations of the preparations and develop more practical strategies for field applications. Here we report the varying effects of two lots of the same commercial neem formulation, Neemix^® 4.5, on the diamondback moth, Plutella xylostella L. We found that one lot had stronger adverse effect on the development and survival of P. xylostella larvae but little repellent effect on the adults, whereas, the other lot had a weaker effect on the larvae but a substantial repellent effect on the adults.     

不同温度下绿僵菌对东亚飞蝗3龄蝗蝻的致病力影响

采用体表接菌法测定了商品生物农药金龟子绿僵菌油悬浮剂PD20080671在15、20、25、30、35和40℃等6个不同温度条件下对东亚飞蝗3龄蝗蝻的致病力的影响。结果表明：东亚飞蝗3龄蝗蝻的累积死亡率在接菌后19 d内均随天数的增加而升高。35℃的累积死亡率最高（82.50%），显著高于其他处理；40℃的累积死亡率最低，为55.00%。死亡个体的湿度培养结果显示绿僵菌在高温条件下萌发的时间较短，40℃为4.26 d，15℃为19.36 d。结果表明环境温度低于15℃或高于35℃都不利于绿僵菌杀死蝗虫。因此，在田间施用金龟子绿僵菌防治东亚飞蝗时应尽量避免高温天气，建议在上午低温时进行防治。     

基于全程生物农药防控桃树主要病虫害的试验研究

为研究桃树生长季主要病虫害全程生物农药防治方案,2014-2015年对桃树主要病虫害,如蚜虫、红蜘蛛、褐腐病、梨小食心虫和桃小食心虫进行全程生物农药防治。休眠期使用矿物农药石硫合剂和波尔多液,生长季选择生物农药组合,包括苦参碱、藜芦碱、除虫菊素、枯草芽孢杆菌、苏云金杆菌和小檗碱,同时联用性诱剂、植物调节蛋白。结果表明,全程生物农药防控对梨小食心虫、桃小食心虫、褐腐病、蚜虫和红蜘蛛的防效分别为83.9%、78.1%、77.8%、76.7%和72.6%,各种防效等同或高于化学农药。生物农药全程防控的桃树长势强,未出现任何药害。生长季全程使用生物农药联合性诱剂,同时用植物调节蛋白增强桃树抗性,可有效控制桃褐腐病、蚜虫、红蜘蛛、桃小食心虫和梨小食心虫,由此构建了桃树主要病虫害防控集成体系。     

Selectivity and sublethal effects of some frequently-used biopesticides on the predator Cyrtorhinus lividipennis Reuter (Hemiptera: Miridae)

The green miridbug,Cyrtorhinus lividipennis,is an important predator of the rice brown planthopper,Nilaparvata lugens.In this study,the selective toxicity of seven commercial biopesticides for C.lividipennis was examined under laboratory conditions; abamectin was the most selective to C.lividipennis,followed by matrine and azadirachtin.Veratridine,rotenone,Bacillus thuringiensis and Beauveria bassiana showed less selectivity for C.lividipennis.Subsequently,matrine,abamectin and azadirachtin were selected for sublethal assessments with respect to C.lividipennis due to their high toxicities to N.lugens.C.lividipennis treated with sublethal concentrations(LC10 and LC20) of the three biopesticides could distinguish volatiles released from healthy and N.lugens-infested plants indicating that the biopesticides tested did not affect the foraging ability of surviving miridbugs.Azadirachtin decreased the consumption capability of C.lividipennis when the densities of N.lugens were 20,30,40 and 50 insects per vial.Sublethal concentration treatment did not impact the pre-oviposition period or egg hatchability of C.lividipennis.However,the fecundity of C.lividipennis exposed to azadirachtin and abamectin increased by 27–41% compared to the untreated individuals.In summary,abamectin or matrine together with C.lividipennis could be considered an effective,sustainable pest management strategy for rice.